Objectives

Objectives You should be able to describe: • Function and Parameter Declarations • Returning a Single Value • Pass by Reference • Variable Scope • Variable Storage Class • Common Programming Errors A First Book of C++: From Here To There, Third Edition

Function and Parameter Declarations • All C++ programs must contain a main() function • May also contain unlimited additional functions • Major programming concerns when creating functions: • How does a function interact with other functions (including main)? • Correctly passing data to function • Correctly returning values from a function A First Book of C++: From Here To There, Third Edition

Function and Parameter Declarations (continued) • Function call process: • Give function name • Pass data to function as arguments in parentheses following function name • Only after called function successfully receives data passed to it can the data be manipulated within the function A First Book of C++: From Here To There, Third Edition

Function and Parameter Declarations (continued) A First Book of C++: From Here To There, Third Edition

Function and Parameter Declarations (continued) • Program 6.1 not complete • findMax() must be written and added • Done in slide 15 • Complete program components: • main(): referred to as calling program • findMax(): referred to as called program • Complete program can be compiled and executed A First Book of C++: From Here To There, Third Edition

Function Prototypes • Function Prototype: declaration statement for a function • Before a function can be called, it must be declared to the calling function • Tells the calling function: • The type of value to be returned, if any • The data type and order of values transmitted to the called function by the calling function A First Book of C++: From Here To There, Third Edition

Function Prototypes (continued) • Example: the function prototype in Program 6.1 void findMax(int, int); • Declares that findMax() expects two integer values sent to it • findMax() returns no value (void) • Prototype statement placement options: • Together with variable declaration statements just above calling function name (as in Program 6.1) • In a separate header file to be included using a #include preprocessor statement A First Book of C++: From Here To There, Third Edition

Calling a Function A First Book of C++: From Here To There, Third Edition

Calling a Function (continued) A First Book of C++: From Here To There, Third Edition

Defining a Function • A function is defined when it is written • Can then be used by any other function that suitably declares it • Format: two parts • Function header identifies: • Data type returned by the function • Function name • Number, order and type of arguments expected by the function • Function body: statements that operate on data • Returns one value back to the calling function A First Book of C++: From Here To There, Third Edition

Defining a Function (continued) A First Book of C++: From Here To There, Third Edition

Defining a Function (continued) findMax() function definition (from program 6.1) void findMax (int x, int y) { // start of function body int maxnum; // variable declaration if (x >= y) // find the maximum number maxnum = x; else maxnum = y; cout << "\nThe maximum of the two numbers is " <<maxnum<< endl; } // end of function body and end of function A First Book of C++: From Here To There, Third Edition

Defining a Function (continued) • Order of functions in a program: • Any order is allowed • main() usually first • main() is the driver function • Gives reader overall program concept before details of each function encountered • Each function defined outside any other function • Each function separate and independent • No nesting of function definitions allowed A First Book of C++: From Here To There, Third Edition

Placement of Statements • Requirement: items that must be either declared or defined before they are used: • Preprocessor directives • Named constants • Variables • Functions • Otherwise, C++ is flexible in requirements for ordering of statements A First Book of C++: From Here To There, Third Edition

Placement of Statements (continued) • Recommended ordering of statements • Good programming practice • preprocessor directives • function prototypes • int main() • { • symbolic constants • variable declarations • other executable statements • return value • } • function definitions A First Book of C++: From Here To There, Third Edition

Function Stubs • Possible programming approach: • Write main() first and add functions as developed • Program cannot b run until all functions are included • Stub: beginning of a final function • Can be used as a placeholder for a function until the function is completed • A “fake” function that accepts parameters and returns values in proper form • Allows main to be compiled and tested before all functions are completed A First Book of C++: From Here To There, Third Edition

Functions with Empty Parameter Lists • Extremely limited use • Prototype format: int display (); Int display (void); • Information provided in above prototypes: • display takes no parameters • display returns an integer A First Book of C++: From Here To There, Third Edition

Default Arguments • Values listed in function prototype • Automatically transmitted to the called function when the arguments omitted from function call • Example: void example (int, int = 5, double = 6.78); • Provides default values for last two arguments • Following function calls are valid: example(7, 2, 9.3) // no defaults used example(7, 2) // same as example(7, 2, 6.78) example(7) // same as example(7, 5, 6.78) A First Book of C++: From Here To There, Third Edition

Reusing Function Names - Overloading • Function overloading: using same function name for more than one function • Compiler must be able to determine which function to use based on data types of parameters (not data type of return value) • Each function must be written separately • Each acts as a separate entity • Use of same name does not require code to be similar • Good programming practice: functions with the same name perform similar operations A First Book of C++: From Here To There, Third Edition

Reusing Function Names - Overloading (continued) Example: two functions named cdabs() void cdabs(int x) // compute and display the absolute //value of an integer { if ( x < 0 ) x = -x; cout << "The absolute value of the integer is " << x << endl; } void cdabs(float x) // compute and display the //absolute value of a float { if ( x < 0 ) x = -x; cout << "The absolute value of the float is " << x << endl; } A First Book of C++: From Here To There, Third Edition

Reusing Function Names - Overloading (continued) • Function call: cdabs(10); • Causes compiler to use the function named cdabs() that expects and integer argument • Function call:cdabs(6.28f); • Causes compiler to use the function named cdabs() that expects a double-precision argument • Major use of overloaded functions • Constructor functions A First Book of C++: From Here To There, Third Edition

Function Templates • Most high-level languages require each function to have its own name • Can lead to a profusion of names • Example: functions to find the absolute value • Three separate functions and prototypes required void abs (int); void fabs (float); void dabs (double); • Each function performs the same operation • Only difference is data type handled A First Book of C++: From Here To There, Third Edition

Function Templates (continued) • Example of function template: template <class T> void showabs(T number) { if (number < 0) number = -number; cout << "The absolute value of the number " << " is " << number << endl; return; } • Template allows for one function instead of three • T represents a general data type • T replaced by an actual data type when compiler encounters a function call A First Book of C++: From Here To There, Third Edition

Function Templates (continued) • Example (continued): int main() { int num1 = -4; float num2 = -4.23F; double num3 = -4.23456; showabs(num1); showabs(num2); showabs(num3); return 0; } • Output from above program: The absolute value of the number is 4 The absolute value of the number is 4.23 The absolute value of the number is 4.23456 A First Book of C++: From Here To There, Third Edition

Returning a Single Value • Passing data to a function: • Called function receives only a copy of data sent to it • Protects against unintended change • Passed arguments called pass by value arguments • A function can receive many values (arguments) from the calling function A First Book of C++: From Here To There, Third Edition

Returning a Single Value (continued) • Returning data from a function • Only one value directly returned from function • Called function header indicates type of data returned • Examples: void findMax(int x, int y) • findMax accepts two integer parameters and returns no value int findMax (float x, float y) • findMax accepts two float values and returns an integer value A First Book of C++: From Here To There, Third Edition

Inline Functions • Calling functions: associated overhead • Placing arguments in reserved memory (stack) • Passing control to the function • Providing stack space for any returned value • Returning to proper point in calling program • Overhead justified when function is called many times • Better than repeating code A First Book of C++: From Here To There, Third Edition

Inline Functions (continued) • Overhead not justified for small functions that are not called frequently • Still convenient to group repeating lines of code into a common function name • In-line function: avoids overhead problems • C++ compiler instructed to place a copy of in-line function code into the program wherever the function is called A First Book of C++: From Here To There, Third Edition

Inline Functions (continued) A First Book of C++: From Here To There, Third Edition

Pass by Reference • Called function usually receives values as pass by value • Only copies of values in arguments are provided • Sometimes desirable to allow function to have direct access to variables • Address of variable must be passed to function • Function can directly access and change the value stored there • Pass by reference: passing addresses of variables received from calling function A First Book of C++: From Here To There, Third Edition

Passing and Using Reference Parameters • Reference parameter: receives the address of an argument passed to called function • Example: accept two addresses in function newval() • Function header: void newval (double& num1, double& num2) • Ampersand, &, means “the address of” • Function Prototype: void newval (double&, double&); A First Book of C++: From Here To There, Third Edition

Variable Scope • Scope: section of program where identifier is valid (known or visible) • Local variables (local scope): variables created inside a function or program component • Meaningful only when used in expressions inside the function in which it was declared • Global variables (global scope): variables created outside any function • Can be used by all functions physically placed after global variable declaration A First Book of C++: From Here To There, Third Edition

Scope Resolution Operator • Local variable with the same name as a global variable • All references to variable name within scope of local variable refer to the local variable • Local variable name takes precedence over global variable name • Scope resolution operator (::) • When used before a variable name the compiler is instructed to use the global variable ::number // scope resolution operator // causes global variable to be used A First Book of C++: From Here To There, Third Edition

Misuse of Globals • Avoid overuse of globals • Too many globals eliminates safeguards provided by C++ to make functions independent • Misuse does not apply to function prototypes • Prototypes are typically global • Difficult to track down errors in a large program using globals • Global variable can be accessed and changed by any function following the global declaration A First Book of C++: From Here To There, Third Edition

Variable Storage Class • Scope has a space and a time dimension • Time dimension (lifetime): length of time that storage locations are reserved for a variable • All variable storage locations released back to operating system when program finishes its run • During program execution interim storage locations are reserved • Storage class: determines length of time that interim locations are reserved • Four classes: auto, static, extern, register A First Book of C++: From Here To There, Third Edition

Local Variable Storage Classes • Local variable can only be members of auto, static or register class • auto class: default, if no class description included in variable’s declaration statement • Storage for auto local variables automatically reserved (created) • Each time a function declaring auto variables is called • Local auto variables are “alive” until function returns control to calling function A First Book of C++: From Here To There, Third Edition

Local Variable Storage Classes (continued) • static storage class: allows a function to remember local variable values between calls • static local variable lifetime = lifetime of program • Value stored in variable when function is finished is available to function next time it is called • Initialization of static variables (local and global) • Done one time only, when program first compiled • Only constants or constant expressions allowed A First Book of C++: From Here To There, Third Edition

Local Variable Storage Classes (continued) A First Book of C++: From Here To There, Third Edition

Local Variable Storage Classes (continued) • register Storage class: same as auto class except for location of storage for class variables • Uses high-speed registers • Can be accessed faster than normal memory areas • Improves program execution time • Some computers do not support register class • Variables automatically switched to auto class A First Book of C++: From Here To There, Third Edition

Global Variable Storage Classes • Global variables: created by definition statements external to a function • Do not come and go with the calling of a function • Once created, a global variable is alive until the program in which it is declared finishes executing • May be declared as members of static or extern classes • Purpose: to extend the scope of a global variable beyond its normal boundaries A First Book of C++: From Here To There, Third Edition

Common Programming Errors • Passing incorrect data types between functions • Values passed must correspond to data types declared for function parameters • Declaring same variable name in calling and called functions • A change to one local variable does not change value in the other • Assigning same name to a local and a global variable • Use of a variable’s name only affects local variable’s contents unless the :: operator is used A First Book of C++: From Here To There, Third Edition

Common Programming Errors (continued) • Omitting a called function’s prototype • The calling function must be alerted to the type of value that will be returned • Terminating a function’s header line with a semicolon • Forgetting to include the data type of a function’s parameters within the function header line A First Book of C++: From Here To There, Third Edition

Summary • A function is called by giving its name and passing data to it • If a variable is an argument in a call, the called function receives a copy of the variable’s value • Common form of a user-written function: returnDataType functionName(parameter list) { declarations and other C++ statements; return expression; } A First Book of C++: From Here To There, Third Edition

Summary (continued) • A function’s return type is the data type of the value returned by the function • If no type is declared, the function is assumed to return an integer value • If the function does not return a value, it should be declared as a void type • Functions can directly return at most a single data type value to their calling functions • This value is the value of the expression in the return statement A First Book of C++: From Here To There, Third Edition

Summary (continued) • Reference parameter: passes the address of a variable to a function • Function prototype: function declaration • Scope: determines where in a program the variable can be used • Variable class: determines how long the value in a variable will be retained A First Book of C++: From Here To There, Third Edition

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